JP6765081B2 - Lighting equipment - Google Patents

Description

The present invention relates to a ceiling-mounted luminaire.

In recent years, LED lighting devices mounted on the ceiling have become widespread. For example, Patent Document 1 discloses an LED lighting device including a lamp body attached to a mounted portion and a translucent cover attached to the lamp body.

JP-A-2015-195160

If the cover is firmly attached to the main body of the lighting device, it becomes difficult to remove the cover for maintenance or the like. On the other hand, it is dangerous for the cover to fall off from the main body, so it is desirable that the cover be held by the main body with an appropriate force.

The present invention provides a lighting device in which the holding force of a cover can be easily adjusted.

The lighting device according to one aspect of the present invention is a lighting device mounted on a ceiling, and includes a light emitting portion, a main body portion provided with a guide groove and a locking structure on a side surface, and the light emitting portion provided on a lower surface. A cover provided with a first convex portion and a second convex portion on an inner side surface, and the second convex portion engages with the second convex portion by being pushed up from below so as to move along the guide groove. The guide groove is provided with a cover that is hooked on the stop structure, and the guide groove intersects the vertical direction, connecting the introduction portion, the first groove portion extending in the vertical direction, the upper end portion of the introduction portion, and the lower end portion of the first groove portion. The width of the second convex portion in the direction intersecting the vertical direction is narrower than the width of the first convex portion in the direction intersecting the vertical direction, including the second groove portion extending in the vertical direction.

According to the present invention, a lighting device in which the holding force of the cover can be easily adjusted is realized.

FIG. 1 is an external perspective view of the lighting device according to the first embodiment as viewed from below. FIG. 2 is an external perspective view of the lighting device separated into the main body and the cover as viewed from below. FIG. 3 is an external perspective view of the lighting device separated into the main body and the cover as viewed from above. FIG. 4 is an enlarged view of the main body. FIG. 5A is a diagram showing a first stage when the cover is attached to the main body. FIG. 5B is a diagram showing a second stage when the cover is attached to the main body. FIG. 5C is a diagram showing a third stage when the cover is attached to the main body. FIG. 6 is an enlarged view of the inner surface of the cover. FIG. 7 is an external perspective view of the lighting device according to the modified example.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that all of the embodiments described below show comprehensive or specific examples. The numerical values, shapes, materials, components, and the like shown in the following embodiments are examples, and are not intended to limit the present invention. Further, among the components in the following embodiments, the components not described in the independent claims indicating the highest level concept are described as arbitrary components.

Further, each figure is a schematic view and is not necessarily exactly illustrated. In each figure, substantially the same configuration is designated by the same reference numerals, and duplicate description may be omitted or simplified.

In the drawings of the following embodiments, the Z-axis direction is, for example, the vertical direction (vertical direction), and the Z-axis + side may be described as an upper side or a ceiling side. Further, the Z-axis-side may be described as a lower side or a light emitting side. Further, the X-axis direction and the Y-axis direction are directions orthogonal to each other on a plane (horizontal plane) perpendicular to the Z-axis.

Further, in the drawings, for a plurality of structures or members having the same function such as screw holes, only one structure or member may be designated.

(Embodiment 1)
First, the configuration of the lighting device according to the first embodiment will be described in detail. FIG. 1 is an external perspective view of the lighting device according to the first embodiment as viewed from below. FIG. 2 is an external perspective view of the lighting device separated into the main body and the cover as viewed from below. FIG. 3 is an external perspective view of the lighting device separated into the main body and the cover as viewed from above. In FIG. 1, the central axis J of the lighting device 10 (hereinafter, also simply referred to as the axis J) and the circumferential direction θ are also shown. The circumferential direction θ is a direction that intersects in the vertical direction.

As shown in FIGS. 1 to 3, the lighting device 10 includes a light emitting unit 20, a main body 30, a cover 40, a motion sensor 50, an illuminance sensor 55, a knob 60, a terminal block 70, and the like. It includes a circuit accommodating portion 80.

The lighting device 10 is a ceiling light that is directly attached to the ceiling and mainly illuminates the lower part. Specifically, in the lighting device 10, the cover 40 is attached to the main body 30 after the main body 30 is attached to the ceiling by a wood screw. The plan view shape (shape seen from the direction of the axis J) of the lighting device 10 is circular.

The light emitting unit 20 functions as a light source of the lighting device 10. Specifically, the light emitting unit 20 is a COB (Chip On Board) type light emitting module in which an LED chip directly mounted on a substrate is sealed with a translucent resin containing a phosphor. The light emitting unit 20 emits white light downward, for example. The optical axis of the light emitting unit 20 coincides with the axis J.

The light emitting portion 20 is screwed to the lower surface 31 of the main body portion 30. The shape of the light emitting unit 20 in a plan view is circular, but is not particularly limited. The shape of the light emitting unit 20 in a plan view may be, for example, an annular shape.

The main body 30 is a flat, substantially columnar (substantially flat) member, and is attached to the ceiling by wood screws inserted from below into each of the two screw insertion holes 37. The plan view shape of the main body 30 is a circle having a diameter of about 10 cm to 15 cm. The side surface 32 of the main body 30 is a circumferential surface. The main body 30 is formed, for example, by die-casting aluminum. The main body 30 may be formed of another metal material or resin material.

A recess for accommodating parts is provided on the upper surface of the main body 30. The terminal block 70, the circuit accommodating portion 80, and the like are accommodated in the recess.

The terminal block 70 is a member provided with an electric wire insertion hole 71. Inside the terminal block 70, terminals electrically connected to the power supply circuit housed in the circuit housing unit 80 are housed. When the end of the electric wire (core wire of the electric wire) pulled out from the ceiling is inserted into the electric wire insertion hole 71, the electric wire is electrically connected to the terminal. Here, the electric wire is electrically connected to an external AC power source (electric power system). Therefore, when the end of the electric wire is electrically connected to the terminal in the terminal block 70, the external AC power supply and the power supply circuit in the circuit accommodating portion 80 are electrically connected by the electric wire. The lighting device 10 includes two terminal blocks 70.

The circuit accommodating unit 80 is a power supply unit having a power supply circuit (circuit components constituting the power supply circuit) and a board (power supply circuit board) on which a control circuit is mounted.

The power supply circuit converts the AC power supplied from the external AC power supply through the electric wire inserted into the electric wire insertion hole 71 into DC power for the light emitting unit 20 to emit light. This DC power is supplied to the light emitting unit 20 by the control circuit. Specifically, the power supply circuit includes a rectifier circuit, an inverter circuit, and the like.

The control circuit is a control circuit for causing the light emitting unit 20 to emit light according to the sensing results of the motion sensor 50 and the illuminance sensor 55. For example, when a person is sensed by the motion sensor 50, the control circuit supplies DC power to the light emitting unit 20 for a certain period of time, and then stops supplying DC power. That is, the light emitting unit 20 emits light according to the sensing result of the motion sensor 50 based on the control of the control circuit.

Further, the control circuit can change the length of the fixed time according to the brightness of the illuminance sensor 55. Specifically, the control circuit includes a timer circuit and the like.

A light emitting unit 20 is provided at the center of the lower surface 31 of the main body 30. Further, of the lower surface 31 of the main body 30, a motion sensor 50, an illuminance sensor 55, and a knob 60 are provided on the peripheral edge of the light emitting unit 20.

The motion sensor 50 is a sensor that senses the presence or absence of a person in the vicinity of the lighting device 10. The motion sensor 50 is a sensor provided in the main body 30 and a part of which protrudes downward from the main body 30. The motion sensor 50 is specifically a pyroelectric sensor, which senses a temperature change due to infrared rays emitted from the human body. The motion sensor 50 may be a sensor that senses the presence or absence of a person by ultrasonic waves or the like.

The illuminance sensor 55 is a sensor that senses the brightness around the lighting device 10. The illuminance sensor 55 senses the brightness around the lighting device 10 by using a light receiving element such as a photodiode.

The knob 60 is a knob provided in the main body 30 and a part of the knob 60 projects downward from the main body 30. The knob 60 is a knob for changing (switching) the light emitting mode of the light emitting unit 20 according to the sensing result of the motion sensor 50 and the illuminance sensor 55. The user can change the length of the fixed time (the length of the light emitting time of the light emitting unit 20) by the knob 60.

A guide groove 35a, a guide groove 35b, and a guide groove 35c are provided on the side surface 32 of the main body portion 30. The guide groove 35a is a groove through which the first convex portion 42a provided on the inner side surface 41 of the cover 40 is inserted. Similarly, the guide groove 35b is a groove through which the first convex portion 42b is inserted, and the guide groove 35c is a groove through which the first convex portion 42c is inserted. The guide groove 35a, the guide groove 35b, and the guide groove 35c are arranged on the side surface 32 of the main body 30 so that the intervals in the circumferential direction θ are equal.

Specifically, the guide groove 35a includes an introduction portion 31a, a first groove portion 33a, and a second groove portion 32a. The guide groove 35b and the guide groove 35c have the same configuration. The detailed configurations of the guide groove 35a, the guide groove 35b, and the guide groove 35c will be described later.

Further, on the side surface 32 of the main body portion 30, a locking structure 36a, a locking structure 36b, and a locking structure 36c are provided separately from the guide groove 35a, the guide groove 35b, and the guide groove 35c. The locking structure 36a, the locking structure 36b, and the locking structure 36c are arranged on the side surface 32 of the main body 30 so that the intervals in the circumferential direction θ are equal.

The second convex portion 43a of the cover 40 is caught on the locking structure 36a, the second convex portion 43b is caught on the locking structure 36b, and the second convex portion 43c is caught on the locking structure 36c. As a result, the cover 40 is held by the main body 30. The detailed configurations of the locking structure 36a, the locking structure 36b, and the locking structure 36c will be described later.

The cover 40 is a cover for hiding the uneven structure of the surface (lower surface 31 and side surface 32) of the main body 30. According to the cover 40, the design of the lighting device 10 is enhanced. The cover 40 has a bottomed cylindrical shape provided with a circular opening 42 at the bottom for exposing the light emitting portion 20, and includes a part of the lower surface 31 of the main body 30 and the entire side surface 32 of the main body 30. cover. The cover 40 is not translucent. Since the cover 40 has translucency, the opening 42 may not be provided.

The cover 40 is formed of, for example, an acrylonitrile styrene acrylate (ASA: Acrylonitrile Styrene Acrylate) resin. The cover 40 may be formed of another resin material such as polybutylene terephthalate (PBT). Further, the cover 40 may be made of a metal material such as aluminum.

In addition to the opening 42, the bottom of the cover 40 is provided with an opening 44, an opening 45, and an opening 46.

The opening 44 is an opening in which the illuminance sensor 55 functions as a window for sensing the brightness around the lighting device 10. The opening 44 is a circular opening having a diameter smaller than that of the opening 42.

The opening 45 is an example of the first opening, and is an opening through which the motion sensor 50 is inserted. The motion sensor 50 is exposed to the outside through the opening 45 in order to sense the presence or absence of a person in the vicinity of the lighting device 10. The opening 45 is a circular opening having a diameter smaller than that of the opening 42.

The opening 46 is an example of the second opening, and is an opening through which the knob 60 is inserted. The knob 60 is exposed to the outside through the opening 46 so that the user can operate the knob 60. The opening 46 is a circular opening having a diameter smaller than that of the opening 42.

A method of engaging the cover 40 with the main body 30 by rotating the cover 40 along the circumferential direction θ is known, but when the motion sensor 50 protrudes through the opening 45, the motion sensor 50 Prevents the cover 40 from rotating. Therefore, in the lighting device 10, the cover 40 engages with the main body 30 by being pushed up instead of being rotated.

The inner side surface 41 of the cover 40 is a circumferential surface facing the side surface 32 of the main body portion 30, and surrounds the main body portion 30 from the side. The inner side surface 41 is provided with a first convex portion 42a, a first convex portion 42b, and a first convex portion 42c. The first convex portion 42a is inserted into the guide groove 35a when the user attaches the cover 40 to the main body portion 30. Similarly, the first convex portion 42b is inserted through the guide groove 35b, and the first convex portion 42c is inserted through the guide groove 35c. The first convex portion 42a, the first convex portion 42b, and the first convex portion 42c are arranged on the inner side surface 41 so that the intervals in the circumferential direction θ are equal.

Further, the inner side surface 41 is provided with a second convex portion 43a, a second convex portion 43b, and a second convex portion 43c. When the cover 40 is pushed up from below so that the first convex portion 42a moves along the guide groove 35a, the second convex portion 43a is caught by the locking structure 36a, and the second convex portion 43b is caught by the locking structure 36b. , The second convex portion 43c is caught by the locking structure 36c. As a result, the cover 40 is held by the main body 30. The second convex portion 43a, the second convex portion 43b, and the second convex portion 43c are arranged on the inner side surface 41 so that the intervals in the circumferential direction θ are equal.

[Detailed configuration of guide groove and locking structure]
Next, the detailed configuration of the guide groove 35a and the locking structure 36a will be described with reference to FIGS. 4 and 5A to 5C. FIG. 4 is an enlarged view of the main body 30. FIG. 5A is a diagram showing a first stage when the cover 40 is attached to the main body portion 30. FIG. 5B is a diagram showing a second stage when the cover 40 is attached to the main body portion 30. FIG. 5C is a diagram showing a third stage when the cover 40 is attached to the main body portion 30.

First, the detailed configuration of the guide groove 35a will be described. Since the detailed configurations of the guide groove 35b and the guide groove 35c are the same as those of the guide groove 35a, the description thereof will be omitted.

As described above, the guide groove 35a is a groove through which the first convex portion 42a is inserted. The guide groove 35a reaches from the lower end to the upper end on the side surface of the main body 30. Specifically, the guide groove 35a includes an introduction portion 31a, a first groove portion 33a, and a second groove portion 32a.

The introduction portion 31a is a portion through which the first convex portion 42a first passes when the cover 40 is attached to the main body portion 30. As shown in FIG. 5A, when the cover 40 is pushed up from below, the first convex portion 42a moves in the introduction portion 31a from the lower side to the upper side. The cover 40 is pushed up until the first convex portion 42a hits the regulation surface 32d. The regulation surface 32d is located above the introduction portion 31a and is a surface that restricts the upward movement of the first convex portion 42a. Further, the regulation surface 32d is also a surface that defines the second groove portion 32a.

The introduction portion 31a has a shape in which the width becomes wider toward the lower side. This makes it easier for the user to insert the first convex portion 42a into the introduction portion 31a.

The second groove portion 32a is a portion of the guide groove 35a that extends along the circumferential direction θ. Further, the second groove portion 32a is also a portion that connects the upper end portion of the introduction portion 31a and the lower end portion of the first groove portion 33a.

After the first convex portion 42a hits the regulation surface 32d, the user rotates the cover 40 along the circumferential direction θ. As a result, as shown in FIG. 5B, the first convex portion 42a moves in the circumferential direction θ along the second groove portion 32a. The cover 40 is rotated until the first convex portion 42a hits the regulation surface 32e. The regulation surface 32e is a surface that regulates the movement of the first convex portion 42a along the circumferential direction θ. The regulation surface 32e is also a surface that defines the end of the second groove 32a on the first groove 33a side.

The first groove portion 33a is a portion of the guide groove 35a that extends in the vertical direction. After the first convex portion 42a hits the regulation surface 32e, the user further pushes up the cover 40. As a result, as shown in FIG. 5C, the first convex portion 42a moves upward along the first groove portion 33a. When the first convex portion 42a moves to some extent, the second convex portion 43a gets over the protrusion 36e of the locking structure 36a. Then, even if the user releases his / her hand from the cover 40, the second convex portion 43a is locked to the protrusion 36e. As a result, the attachment of the cover 40 to the main body 30 is completed. At this time, the first convex portion 42a is not caught by the main body portion 30. That is, the first convex portion 42a is not supported by the main body portion 30.

Next, the detailed configuration of the locking structure 36a will be further described with reference to FIG. Since the detailed configurations of the locking structure 36b and the locking structure 36c are the same as those of the locking structure 36a, the description thereof will be omitted.

The locking structure 36a is a concave-convex structure having a groove 36d and a protrusion 36e provided in the groove 36d. The locking structure 36a is provided at the lower end of the side surface 32 of the main body 30. In the circumferential direction θ, the position of the locking structure 36a is different from the position of the guide groove 35a.

The groove 36d is a groove extending in the vertical direction, through which the second convex portion 43a is inserted. The protrusion 36e is provided in the groove 36d and is a protrusion that divides the groove 36d into an upper portion and a lower portion. As described above, when the first convex portion 42a moves along the first groove portion 33a, the second convex portion 43a gets over the protrusion 36e, moves from the lower part to the upper part of the groove 36d, and is caught by the protrusion 36e. The surface of the protrusion 36e is a curved surface so that the second convex portion 43a can easily get over the protrusion 36e.

The lower end of the groove 36d has a shape in which the width becomes wider toward the bottom. As a result, the effect that the user can easily insert the second convex portion 43a into the groove 36d can be obtained.

[Detailed configuration of the first convex part and the second convex part]
Next, the detailed configuration of the first convex portion 42a and the second convex portion 43a will be described with reference to FIG. FIG. 6 is an enlarged view of the inner side surface 41 of the cover 40. Since the detailed configurations of the first convex portion 42b and the first convex portion 42c are the same as those of the first convex portion 42a, the description thereof will be omitted. Since the detailed configurations of the second convex portion 43b and the second convex portion 43c are the same as those of the second convex portion 43a, the description thereof will be omitted.

The first convex portion 42a is integrally formed with the main body of the cover 40 by resin molding using a mold. The first convex portion 42a is arranged at the upper end portion of the inner side surface 41 of the cover 40. As described above, the first convex portion 42a is inserted into the guide groove 35a. Since the first convex portion 42a hits the surface (wall surface) of the main body portion 30 that defines the guide groove 35a, a certain degree of strength is required. Therefore, in the first embodiment, the first convex portion 42a is not a mere rib but a rib forming a ring. As a result, the first convex portion 42a has a higher strength than the second convex portion 43a. The central portion of the first convex portion 42a has a recess, and this recess may be filled.

The second convex portion 43a is integrally formed with the main body of the cover 40 by resin molding using a mold. The second convex portion 43a is a rib-shaped protrusion extending in the vertical direction, and is provided separately from the first convex portion 42a. The shape of the second convex portion 43a viewed from the circumferential direction θ is a trapezoid (isosceles trapezoid) in which the radial direction is the height direction and the width becomes narrower toward the center side.

The second convex portion 43a is arranged at the lower end portion of the inner side surface 41 of the cover 40. Further, in the circumferential direction θ, the position of the second convex portion 43a is different from the position of the first convex portion 42a. As described above, in the lighting device 10, the first convex portion 42a, which is a convex portion for the guide, and the second convex portion 43a, which is a convex portion for locking the cover 40 to the main body portion 30, are separately provided. ing.

In a structure such as the lighting device 10 in which the cover 40 is pushed up and locked to the main body portion 30, the width of the second convex portion 43a in the circumferential direction θ (hereinafter, simply referred to as the width) is finely adjusted. The holding force (difficulty of coming off) of the cover 40 can be adjusted. Such fine adjustment is performed, for example, by changing the mold or molding conditions in the resin molding for forming the cover 40.

On the other hand, if the original width of the second convex portion 43a is wide, the holding force of the cover 40 does not change much even if the width is finely adjusted by changing the molding conditions or the like. Therefore, the second convex portion 43a is formed so that the width in the circumferential direction θ becomes narrow. Specifically, the width of the second convex portion 43a in the circumferential direction θ is narrower than the width of the first convex portion 42a in the circumferential direction θ. This makes it easy to adjust the holding force of the cover 40.

It is difficult to narrow the width of the convex portion in this way when the convex portion is used not only for locking the cover 40 but also as a guide structure. This is because it is necessary to secure the strength in order to give the convex portion a guide structure, so that the convex portion needs to have a certain width.

Therefore, in the lighting device 10, a first convex portion 42a, which is a convex portion for guiding, and a second convex portion 43a, which is a convex portion for locking the cover 40 to the main body portion 30, are separately provided. .. Therefore, in the lighting device 10, the width of the second convex portion 43a in the circumferential direction θ can be made narrower than the width of the first convex portion 42a in the circumferential direction θ to facilitate the adjustment of the holding force of the cover 40. it can.

By the way, in the lighting device 10, even if the second convex portion 43a is disengaged from the locking structure 36a, the cover 40 does not immediately fall off from the main body portion 30. This is because the first convex portion 42a is caught on the regulation surface 38a (shown in FIG. 4) located below the first groove portion 33a. In this way, the regulating surface 38a restricts the cover 40 from falling off by coming into contact with the first convex portion 42a when the second convex portion 43a is disengaged from the locking structure 36a. As a result, the safety of the lighting device 10 is enhanced.

The regulation surface 38a is an inclined surface that is inclined so that the height becomes higher as it approaches the introduction portion 31a. A part of the lower surface of the first convex portion 42a is inclined so as to make surface contact with the regulation surface 38a. That is, the first convex portion 42a has a shape along the regulation surface 38a. As a result, even if the position of the first convex portion 42a is slightly closer to the introduction portion 31a side, the first convex portion 42a slides down along the regulation surface 38a toward the side opposite to the introduction portion 31a. Therefore, the movement of the first convex portion 42a downward through the introduction portion 31a, that is, the cover 40 from falling off is further suppressed.

[Modification example]
The lighting device 10 is attached to the ceiling by screwing the main body 30 to the ceiling, but the lighting device 10 may be attached to a hook ceiling body provided on the ceiling. FIG. 7 is an external perspective view of the lighting device according to such a modified example.

The lighting device 10a shown in FIG. 7 is different from the lighting device 10 in that it includes terminals 90a and terminals 90b electrically connected to the power supply circuit in the circuit accommodating portion 80 instead of the terminal block 70. Other configurations of the lighting device 10a are the same as those of the lighting device 10.

The terminal 90a and the terminal 90b are terminals for attaching the lighting device 10a to the hook ceiling body 100 provided on the ceiling. The terminal 90a and the terminal 90b are provided on the upper surface of the main body 30.

The lighting device 10a is attached to the hook sealing body 100, for example, in a completed state in which the cover 40 is attached to the main body 30. In the installation of the completed lighting device 10a, first, the terminal 90a is inserted into the terminal insertion hole 101a provided in the hook sealing body 100, and the terminal 90b is inserted into the terminal insertion hole 101b provided in the hook sealing body 100. Will be inserted. Next, in this state, the lighting device 10a is rotated along the circumferential direction θ. As a result, the lighting device 10a is electrically and mechanically attached to the hook sealing body 100.

The play (gap in the circumferential direction θ) between the first convex portion 42a and the wall surface forming the guide groove 35a is the play between the second convex portion 43a and the wall surface forming the groove 36d (circumferential direction θ). Is smaller than the gap). Therefore, when the user holds the side surface of the cover 40 and rotates the lighting device 10a, the strong first convex portion 42a hits the wall surface forming the guide groove 35a, and the narrow second convex portion 43a is a groove. It does not hit the wall surface forming 36d. Therefore, damage to the second convex portion 43a, which is lower in strength than the first convex portion 42a, is suppressed.

[Effects, etc.]
As described above, the lighting device 10 is a lighting device mounted on the ceiling. The lighting device 10 includes a light emitting unit 20 and a main body 30 having a guide groove 35a and a locking structure 36a on the side surface 32 and a light emitting unit 20 on the lower surface 31. Further, the lighting device 10 is a cover 40 provided with a first convex portion 42a and a second convex portion 43a on the inner side surface 41, and is pushed up from below so that the first convex portion 42a moves along the guide groove 35a. The second convex portion 43a is provided with a cover 40 that is caught by the locking structure 36a.

The guide groove 35a connects the introduction portion 31a, the first groove portion 33a extending in the vertical direction, the upper end portion of the introduction portion 31a, and the lower end portion of the first groove portion 33a in a direction intersecting the vertical direction (circumferential direction θ). Includes a second groove 32a that extends. The width of the second convex portion 43a in the direction intersecting the vertical direction is narrower than the width of the first convex portion 42a in the direction intersecting the vertical direction.

This makes it easy to adjust the holding force of the cover 40. Further, by providing the second groove portion 32a, even if the second convex portion 43a is disengaged from the locking structure 36a, the cover 40 does not fall immediately, so that the safety is enhanced.

Further, below the first groove 33a of the main body 30, when the second convex portion 43a is disengaged from the locking structure 36a, it comes into contact with the first convex portion 42a to prevent the cover 40 from falling off. May be provided. The height of the regulation surface 38a becomes higher as it approaches the introduction portion 31a, and the first convex portion 42a may have a shape along the regulation surface 38a.

As a result, even if the position of the first convex portion 42a is slightly closer to the introduction portion 31a side, the first convex portion 42a slides down along the regulation surface 38a toward the side opposite to the introduction portion 31a. Therefore, the cover 40 is further suppressed from falling off.

Further, a motion sensor 50 which is provided in the main body 30 and part of which protrudes downward from the main body 30 may be provided. The light emitting unit 20 emits light according to the sensing result of the motion sensor 50, and the cover 40 may be provided with an opening 45 through which the motion sensor 50 is inserted. The motion sensor 50 is an example of a sensor, and the opening 45 is an example of a first opening.

As a result, the lighting device 10 can emit light according to the sensing result of the motion sensor 50.

Further, in order to change the light emitting mode of the light emitting unit 20 according to the sensing result of the motion sensor 50, which is a knob 60 provided in the main body 30 and part of which protrudes downward from the main body 30. The cover 40 may be provided with an opening 46 through which the knob 60 is inserted. The opening 46 is an example of the second opening.

As a result, the user can change the light emitting mode of the light emitting unit 20.

Further, the introduction portion 31a may have a shape in which the width becomes wider toward the lower side.

This makes it easier for the user to insert the first convex portion 42a into the introduction portion 31a.

Further, the side surface 32 of the main body 30 is a circumferential surface, the direction intersecting the vertical direction is the circumferential direction θ along the circumferential surface, and the cover 40 has an opening for exposing the light emitting portion 20 to the bottom. It may be a bottomed cylinder provided with.

As a result, it is possible to realize the lighting device 10 having a circular plan view shape.

Further, like the lighting device 10a, a terminal 90a for attaching the lighting device 10a to the hook ceiling body 100 provided on the ceiling may be provided on the upper surface of the main body 30. The lighting device 10a may be attached to the hook sealing body 100 by rotating the terminal 90a in a state of being inserted into the terminal insertion hole 101a provided in the hook sealing body 100.

As a result, the user can attach the lighting device 10a to the hook sealing body 100.

(Other embodiments)
Although the lighting device according to the embodiment has been described above, the present invention is not limited to such an embodiment.

For example, in the above embodiment, the guide groove and the locking structure are provided on the side surface of the main body portion, and the first convex portion and the second convex portion are provided on the inner side surface of the cover. However, the guide groove and the locking structure may be provided on the inner side surface of the cover, and the first convex portion and the second convex portion may be provided on the side surface of the main body portion.

Further, the locking structure described in the above embodiment is an example. The locking structure may include, for example, an opening or notch in which the second convex portion is caught.

The shape of the lighting device described in the above embodiment is an example. For example, in the above embodiment, the side surface of the main body is a circumferential surface, but it may be a flat surface. In this case, the cover may be slid so that the first convex portion moves along the second groove portion.

Further, in the above embodiment, a COB type light emitting module is used as the light emitting unit, but the mode of the light emitting unit is not particularly limited. For example, an SMD type light emitting module may be used as a light emitting unit. Further, as the light emitting unit, a fluorescent tube, a metal halide lamp, a sodium lamp, a halogen lamp, a xenon lamp, a neon tube or the like may be used instead of the light emitting module using the LED chip. Further, inorganic electroluminescence, organic electroluminescence, chemiluminescence (chemiluminescence), a semiconductor laser or the like may be used for the light emitting portion.

Although the lighting device according to one or more aspects has been described above based on the embodiment, the present invention is not limited to this embodiment. As long as the gist of the present invention is not deviated, various modifications that can be conceived by those skilled in the art are applied to the present embodiment, and a form constructed by combining components in different embodiments is also within the scope of one or more embodiments. May be included within.

10, 10a Lighting device 20 Light emitting part 30 Main body part 31 Lower surface 31a Introducing part 32 Side surface 32a Second groove part 32d, 32e, 38a Regulation surface 33a First groove part 35a, 35b, 35c Guide groove 36a, 36b, 36c Locking structure 40 cover 41 Inner surface 42a, 42b, 42c First convex portion 43a, 43b, 43c Second convex portion 45 opening (first opening)
46 opening (second opening)
50 motion sensor (sensor)
60 Knob 90a, 90b Terminal 100 Hook Sealing Body 101a, 101b Terminal Insertion Hole

Claims (7)

A lighting device that can be mounted on the ceiling
Light emitting part and
A main body portion provided with a guide groove and a locking structure on the side surface and the light emitting portion provided on the lower surface,
A cover provided with a first convex portion and a second convex portion on an inner surface surface, and the second convex portion is engaged by the first convex portion being pushed up from below so as to move along the guide groove. Equipped with a cover that catches on the stop structure,
The guide groove is
Introductory part and
The first groove extending in the vertical direction and
A second groove portion extending in a direction intersecting the vertical direction, which connects the upper end portion of the introduction portion and the lower end portion of the first groove portion, is included.
The width of the second projecting portion in the vertical direction and the direction crossing the rather narrower than the width of the first protrusion in a direction intersecting the vertical direction,
The second convex portion of the cover is rotated so that the first convex portion moves along the second groove portion, and then the first convex portion moves along the first groove portion from below. A lighting device that gets caught in the locking structure by being pushed up . Below the first groove portion of the main body portion, a regulating surface is provided to prevent the cover from falling off by contacting the first convex portion when the second convex portion is disengaged from the locking structure. ,
The regulation surface is inclined so as to be higher as it approaches the introduction portion.
The lighting device according to claim 1, wherein the first convex portion has a shape along the regulation surface. Further, a sensor provided in the main body portion and a part of which protrudes downward from the main body portion is provided.
The light emitting unit emits light according to the sensing result of the sensor.
The lighting device according to claim 1 or 2, wherein the cover is provided with a first opening through which the sensor is inserted. Further, it is provided with a knob provided in the main body portion and a part of which protrudes downward from the main body portion, and is provided with a knob for changing the light emitting mode of the light emitting unit according to the sensing result of the sensor.
The lighting device according to claim 3, wherein the cover is provided with a second opening through which the knob is inserted. The lighting device according to any one of claims 1 to 4, wherein the introduction portion has a shape in which the width becomes wider toward the bottom. The side surface of the main body is a circumferential surface.
The direction intersecting the vertical direction is the circumferential direction along the circumferential surface.
The lighting device according to any one of claims 1 to 5, wherein the cover has a bottomed cylindrical shape provided with an opening for exposing the light emitting portion at the bottom. On the upper surface of the main body, a terminal for attaching the lighting device to the hook ceiling body provided on the ceiling is provided.
The illuminating device is attached to any one of claims 1 to 6 by rotating the terminal in a state of being inserted into a terminal insertion hole provided in the hook sealing body. The luminaire described.

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